A profile system (1) for fastening objects to a room wall provided with a plate covering comprises at least one elongated rail profile (2), which extends in a longitudinal direction (L) and has a constant cross-section, and at least one plug element (3), which is designed to be fastened directly and detachably to the rail profile (2) in a plug-in manner. The rail profile (2), viewed in cross-section, has a substantially rectangular base section (6), whose depth (T) is adapted to the thickness of the plate covering and which is provided on its front side with a receiving groove (7) extending in the longitudinal direction (L) with a groove opening (9) accessible from the outside, and at least one fastening leg (13) which adjoins the rear side of the base section (6) substantially flush and projects outwards from the base section (6).

A panel (assembly) having an inner panel member (sheet) and an outer panel member (sheet), with the member being secured to the member so that the member applies an outward force to the first member.

An apparatus and method for a wall panel system having a plurality of wall panels arranged within a framework. The wall panels may include a plurality of retention devices releasably engaging the framework to position the wall panels relative to the wall panel system. One or more of the retention devices may be actuated to engage and disengage from the framework. The wall panel system may include trim releasably engaging the framework.

The present invention provides a solar cell module installation structure that can be installed on a wall surface of a building, and provides a house and a solar cell module.

A support member has a support surface that spreads out substantially in a vertical direction. A locking piece of the support member has: a locking part that faces the support surface at an interval and extends upward; and a connection part that connect the locking part and the support surface. A frame member of the solar cell module has: a holding recess that sandwiches a part of a main body panel of the solar cell module and is in contact with a light receiving surface and a back surface of the main body panel; and a mounting part that is provided on a back surface side of the main body panel, has higher rigidity than the main body panel, has a length longer than or equal to ½ of one side of the main body panel, and extends in the vertical direction. A mounting-side engagement part of the mounting part is a notch that is provided in a lower end part and has a depth extending upward in the vertical direction. The support member is configured to support the solar cell module such that the locking part is inserted in the mounting-side engagement part and such that the solar cell module can be inclined with an inclination angle more than or equal to 10 degrees with respect to the support surface.

A sheathed building uses corrugated hat-channel furring channels to attach metal panels to an underlying wall structure in a semi-floating manner. The corrugated furring channels are attached to backsides of the metal panels using high-bond-strength tape, and the corrugated furring channels are “hooked” onto corrugated flanges of rail brackets that have been attached to the wall structure to secure the metal panels to the building. Using tape instead of conventional fasteners (e.g., screws or nails) reduces penetrations through the panels and reduces moisture behind the panels. The corrugations facilitate drainage of moisture from behind the panels and drying air circulation. In other embodiments such as a clapboard arrangement of metal panels, rail brackets are not used, and the corrugated furring channels are used to mount the panels in overlapping fashion with no fasteners penetrating through the panels.

There is disclosed an improved plank installation system and method. In an embodiment, the system comprises a mounting structure having extending mounting hooks; and a plank having extending flanges with latches or clasping members corresponding to the positions of the plurality of extending mounting hooks on the mounting structure, The latches or clasping members of the extending flanges are adapted to interconnect with one or more of the plurality of extending mounting hooks on the mounting structure; whereby the plank is securely mountable to the mounting structure by an interconnection between the latches or clasping members, and the plurality of extending mounting hooks.

The present invention provides a solar cell module installation structure and a house that can reduce manufacturing cost and have good workability as compared with the related art.

A support member includes a rail part that extends substantially in a vertical direction and is longer than a length of the solar cell module. The solar cell module includes: a solar cell panel; and a frame member. The solar cell panel includes: a main body panel; a terminal box provided on a back surface of the main body panel; and a wiring part extending from the terminal box. The frame member includes: a holding recess; and a mounting part. The holding recess sandwiches a part of the main body panel and is in contact with a light receiving surface and the back surface of the main body panel. The mounting part is provided on a back surface of the main body panel and is attached to the rail part of the support member. The mounting part has a penetration part that passes through from an inside to an outside with reference to the terminal box when the light receiving surface is viewed from front. The wiring part passes through the penetration part.

A coupling system for mounting a tile to a framework of a building is disclosed. In one example of an embodiment, the coupling system includes a support bar arranged and configured for coupling to the tile and one or more clips coupled to the support bar. In one example of an embodiment, the clips include a tile-mounting opening for coupling the clips to the support bar and a frame-mounting opening for coupling the clips to the framework of the building to thereby couple the tile to the framework of the building. In one example of an embodiment, the support bar is arranged and configured for receipt within a longitudinal channel formed in the tile.

A mountable panel includes a panel body and a hanger body. The panel body includes front, rear, longitudinal side and lateral side surfaces, and a channel having a recessed portion recessed from the rear surface and a leg portion extending into the panel body from a first longitudinal end of the recessed portion. The hanger body includes a base portion disposed in the recessed portion of the channel and recessed from the rear surface of the panel body, a leg portion extending forward from a first longitudinal end of the base portion and into the leg portion of the channel, and a hook portion extending rearward from the base portion.

Panel elements for lining ceilings and/or walls are provided. Here, a panel element (1), among others, is proposed, having a holding device (4) that is used to fix at least one holding spring (3), which is used to secure the panel element (1) to the ceiling and/or wall, in the transport position of the holding spring.